using simulation for hospital planning
TRANSCRIPT
Using Simulation for Hospital Planning
Carolyn Volker Ali Latif
Antony George
Hamad Medical Corporation
2
Patients in the ED See & Treat Inpatients
Short Stay
Elective Patients
Urgent referrals OPD
Referrals Other Hospitals
Patient Flow – A System
Placement
Acute Unit
Ward
Stay Discharge
Capacity LOS Time
Co-ordination & Bed & Case Management Systems
The Patients Journey from Arrival – Discharge Right Place/ Right Time / First Time
Clinical Services, Flow Services, Support Services, Capacity
Clinical Care Pathways
Demand – Who Needs the Service Capacity – Resources Req. Emergency Admissions Space in ED Elective Admissions Number OR’s Number & Specialty Number Beds – Specialty
Other Admissions Staff Elective Cancellations Information Systems Discharges & Timeliness Access to Diagnostics
IP Length of Stay Escalation & Coordination Systems
Understanding the System
Right Patient - Right Place - Right Time – First Time
Hamad Medical Corporation HMC National System Great Vision 8 hospitals (more on way) EMS Primary Care being developed
HGH A Busy Tertiary Hospital
Trauma Centre
ED 1500 Attendances Per Day
Elective Procedures
Full Range OPD
Understanding our System – Who Are We?
So What’s the Problem ?
8am Snapshot Audit • 45 - 50 Pending Admissions in ED – No Beds • 6 Critical Care Patients • 10 Cardiology Patients • 13 Surgical Patients • 13 – 15 Medical Patients • 4-5 Psychiatry Patients • Boarders in PACU • Most Electives Cancelled - More than Once • Very Long Waits for Beds
Identifying the Problem – Facts
Understanding the System - Constraints
What We Did not Have !
• PAS Medicom System – Not Fully Utilised • Electronic Booking Systems - Inpatients • ED Information Systems • Bed Management / Co ordination Structures • System Awareness / Response / Escalation • High Level Data – Non Specialty Specific
What We Did Have !
• We Keep Lots of Data - All Paper – Everywhere • Great Staff
What have we done so far ?
• Daily Clinical Flow Management & Coordination • Acute Medical Assessment Unit • Relocated long term care patients • Corporate awareness – New Facilities
• MICU, SICU, TICU, ED, OR’s • New Ambulatory / Elective Facilities
• System wide bed management capacity system • Surgical booking in Urology / Bariatrics
No Data AMAU
Bed Management Roles & Action Focus
Systems
Information
Understanding our System by Modelling
• Started with a vision – Insightful colleagues • Purchased the software • Set up a very small team • Success factor of team
• Analyst • Flow champions & Clinical Operations • Clinical lead strategy & planning
• Training sessions in Doha • Completed a few models • Middle East Forum 2016
• Recognition – a system issue
• Information • Chiefs and Chairs • Hearts and Minds • Patient Focus • Perseverance • Celebrate Success • Will
Challenges we Faced
THE BLOOD DONOR UNIT
The National Blood Donation Center
• Receives 50% of all donations for the state of Qatar.
• The current unit is viewed as suboptimal, with its design no longer meeting the needs of the department in providing a high quality service for blood donors.
• A series of emergencies have led to discussions regarding what capacity requirements should be considered in the event of a major disaster.
• An estimate of future capacity requirements
The National Blood Donation Center
1. What is the optimal configuration of the blood donor unit, based on
current service demand?
2. What would be the optimal configuration of the blood donor unit based on 30,000 yearly donations at the unit?
3. What would be the optimal configuration of the unit when planning for a major disaster?
BLOOD DONOR MODEL
The National Blood Donation Center
Reception Registration Screen/ Exam Donor Parking
1 Current 4 0 1+1 6 10
2 Recommended 1 5 3 6 8
3 30,000 1 5 3 6 13
4 Disaster 2 5 9 12 75
Outcome
• Optimal donor unit configuration identified • Identified the need for a ‘surge’ facility in a disaster scenario
• Represented an approximately 30% saving on new build, staffing, operating
costs (6 vs.12 chairs)
THE CRITICAL CARE UNIT
The critical care unit
• Current 23-bed capacity
• Inadequate capacity with a high proportion of patients not admitted to the unit
• An original plan to expand to a 44 bed facility was postponed indefinitely in Jan 2016
Question: • What is the ideal capacity of the critical care unit?
KPIs: • 99% of patients admitted to unit • Patients admitted to unit within 1 hour of decision to admit
The critical care unit
CRITICAL CARE MODEL
Results
Outcome
• Optimal configuration identified
• Results informed a business plan that was approved
• A new pathway and reconfiguration of capacity will be undertaken
• Multi-disciplinary working
‘…….can be described as a Patient Safety Crisis’
Using SIMUL8 to Educate
• Make flow a game – Middle East Forum • Using it to explain simple flow concepts - • Simple flow models (IHI forum) teach basic concepts such as
– Variation – Occupancy – Bed capacity
0141 552 6888 | www.SIMUL8Healthcare.com | [email protected]
What is the ideal bed occupancy?
What is occupancy and why does it matter?
Occupancy: proportion of utilized beds in a ward – normally quoted as an average
– 2000 admissions at 5 days each = 10,000 bed days = 27.3 beds – 27.3/30 = 91% occupancy
Commonly quoted target acute ward occupancy of 85% High occupancy has been linked to increased risk to patient care. Low occupancy mean less cost-effective services
0141 552 6888 | www.SIMUL8Healthcare.com | [email protected]
The Simulation
Question
How many beds do we need to ensure 100% of patients wait less than the target?
A: 85 B: 90 C: 95 D: 100
What determines the ideal bed occupancy?
Demand pattern – Unscheduled vs. scheduled – Variation in admission rate
Acuity (target wait times)
– How long can patients afford to wait in ED? Discharge pattern
– Variation in length of stay and discharge
Our Lessons Learnt
• Visual Impact really important • The make up of the modelling team is critical • The team requires time to learn and build models • Executive support & buy in is essential • Models should align with corporate objectives • It is a great tool for teaching principles of flow
Summary
• To truly perform well we have to understand the whole system
• It is important to analyze our system scientifically.
• We need to be able to test solutions to our problems without increasing patient risk